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| MOSEL VITELIC February 1996 General Description MSu001/u001T 20" VOICE SMART The MSu001 is a monolithic talking microcomputer that can memorize voice up to 22 seconds using MOSEL qualified coding method(MPCM). It's an integration of traditional 4-bit microcomputer and voice chip with minimal external components. LCD driver and miscellaneous interface are provided for versatile applications. With more than 10K ROM/RAM inside, this chip meets every intelligent novelty. Customer requested function and voice data will be built in by changing masks during fabrication. Block Diagram OSC CAP X1 X2 RES VBZ/INT CUP1,2 S1,2,3,4 M1,2,3,4 P1,2,3,4 IOB3,4 EB2 PWR TIMER CIRCUIT PROGRAM /DATA ROM DATA RAM TEST TESTA TESTP TESTN BUZZER & LOGICS CPU VOICE DATA ROM LCD COM1-3 MPCM DECODER CURRENT BUFFER BUZZER BUFFER C out Vout1 Vout2 DRIVER SEG1-25 BAK Vdd 1/12 Vss0-3 PID219D 02/96 MOSEL VITELIC MSu001/u001T Hardware Features Low current consumption Maximal function with minimal cost Current output could drive 8 ohm speaker with a transistor, Vout could drive buzzer directly. The voice content is stored up to 20 seconds at 6 KHz S.R. and can be separated up to 64 sections. 22 seconds at 5.51 KHz sample rate (1DA00h) LCD driver provided, can drive up to 75 segments Built-In clock generator Built-In doubler, halver, tripler Internal program ROM : 1024 x 15 bits; Internal program RAM : 64 x 4 bits Two 4-bit input ports Two 4-bit input/output ports One 4-bit output port Software Features 78 instructions, in 48 categories 4-level subroutine nesting (also used for interrupt) Two external factors (INT, S&M) for interrupt Two internal factors (timer, divider) for interrupt Sample Applications handy game with LCD versatile timepiece with LCD talking timer with LCD intelligent calculator with LCD smart stationery with LCD talking home electronics with LCD talking education kit with LCD MSM9058 MSM9012 MSM9011 MSM9009 Developing Card LCD display emulation board Program code emulation board 20" (30") Sound emulation board Development Supports Development tools are provided Software / Hardware programming guide is provided Engineering sample could be provided Mask Options mask option for either open or hold transistor on S port & M port mask option for either pull down or put up on Interrupt switch mask option for either leading edge or trailing edge on Interrupt edge mask option for either power back-up activated or not when power on mask option for either with reset or not when power on mask option for either 8 ms or 2 ms chattering removal time on S port & M port mask option for either slow (by 15.625 ms) or fast (by 224.14 us) set time timer mask option for either fast system clock ( Fosc) or slow system clock ( Fosc / 2) LCD display frequency : (1) 128 Hz /170.7 Hz (2) 64Hz /85.3 Hz (3) 32Hz /42.7Hz LCD driver : (1) static (2) 1/2 bias 1/2 duty (3) 1/2 bias 1/3 duty AC Characteristics at 4.5 V & 6 KHz S.R. Timing TW TH TS TWB TWA Write Enable pulse width Trigger address hold time Trigger address setup time Write Enable to BUSY delay time Write Enable to Audio delay time Min. 300ns 80ns 220ns 1 us 500us Max. Remarks SRD SRD SRD SRD SRD SRD := Sample Rate Dependent 2/12 PID219D 02/96 MOSEL VITELIC MSu001/u001T Pad Descriptions Pad No. Signal I/O Functions 1 Power Positive power supply for CPU function block 1 Vdd1 Voltage regulator 1O 2 Vreg Voltage doubler capacitor 2I 3,4 CUP1,2 Crystal Oscillator input, 32768 Hz 1I 5 X1 Crystal Oscillator Output, 32768 Hz 1O 6 X2 Phase compensating capacitor 1O 7 CAP Common plate for LCD panel 3O 8,35,34 Com1,2,3 25 segment outputs for LCD panel 9-33 SEG1-25 25 O 3 Power Negative power supply 38,39,36 Vss1,2,3 1 Power BackUp negative power supply 37 BAK One-way input port; note 1 2I 40,41 S4,S3 Pop noise eliminating signal; internally connected to CPU output port 42 PWR(alm) 1 I/O Enable signal to latch section address; internally connected to CPU output port 1 I/O 43 #EB2 Trigger address inputs to voice function block; note 2 4 I/O 44-47 TG0,1,2,3 System reset 1I 48 RESET 1 Power Positive supply for voice function block, internally connected to pad 1 49 Vdd2 Oscillator Resistor for voice function block 1I 50 Rosc 1 Power Negative power supply for voice signal 51 Vss0 Audio signal current output 1O 52 Cout Audio signal voltage output 2O 53,54 Vout1,2 Trigger address inputs to voice function block; note 3 2 I/O 55,56 TG4,5 Bidirectional input/output port, 2 bits 2 I/O 57,58 IOB3,4 Busy status output; internally connected to INT (interrupt request) pin of CPU 1 I/O 59 VBZ/INT One-way output port, 4 bits 4O 60-63 P1,2,3,4 One-way input port; note 1 4I 64-67 M1,2,3,4 No connection 1 NC 68,69 NC One-way input port, note 1 2I 70,71 S2,S1 Note 1. with chatter removal time for either 8 ms (ph8) or 2 ms (ph6) Note 2. internally connected to CPU I/O port, IOA1=TG0, IOA2=TG1, IOA3=TG2, IOA4=TG3 Note 3. internally connected to CPU I/O port, IOB1=TG4, IOB2=TG5 Absolute Maximum Rating (Vdd=3.0V, Vss=Vss2=0.0V, Vss3=0.0V/-1.5V) Symbol Vss1 BAK Vreg CAP X1 S1,2,3,4 M1,2,3,4 (IOA1,2,3,4)TG0,1,2,3 IOB1,2,3,4 VBZ/INT RESET Rating 1.2-1.8 0.0-0.6 0.0-0.6 Vreg-Vd Vreg-Vdd Vss-Vdd Vss-Vdd Vss-Vdd Vss-Vdd Vss-Vdd Vss-Vdd Unit V V V V V V V V V V V Symbol Rosc X2 PWR(ALM) #EB2 P1,2,3,4 SEG1-25 COM1,2,3 CUP1,2 Vout1,2 T(operating) T(storage) Rating Vss-Vdd Vreg-Vdd Vss-Vdd Vss-Vdd Vss3-Vdd Vss3-Vdd Vss3-Vdd Vss3-Vdd Vss-Vdd -60-+60 -55-+125 Unit V V V V V V V V V Degree C Degree C 3/12 PID219D 02/96 MOSEL VITELIC Common Plate Usage COM1 COM2 COM2 Alternating Frequency MSu001/u001T Static V 32 Hz 1/2 duty V V 32 Hz 1/3 duty V V V 43 Hz DC Characteristics at 3.0 Vdd (u001,u001T) Symbol I sb I op I ohv I oLv I co d F/F d F/F R osc R osc Name stand by I operation I output high I output low I cuurent output frequency stability frequency variation oscillation R oscillation R Valid Vdd Vdd Vouts Vouts Cout Cout Min. -5 -10 Typ. 1 0.2 5 5 2.5 1.5 1.2 880 1.1 830 Max. 5 10 Unit uA mA mA mA mA mA % % Mohm kohm Mohm kohm Remarks Rosc Rosc Rosc Rosc u001 u001T [Fosc(3.0V)-Fosc(2.7V)]/Fosc(3.0V) 6 KHz S.R., 1.2 Mohm Rosc S.R.=6000 Hz, u001 S.R.=8000 Hz, u001 S.R.=6000 Hz, u001T S.R.=8000 Hz, u001T DC Characteristics at 4.5 Vdd (u001, u001T) Symbol I sb I op I ohv I oLv I co V ohp V oLp V ohw V oLw V ohio V oLio V ohc V oLc V ohg V oLg d F/F d F/F R isn R isf R imn R imf R inh R inL R ir R osc Name stand by I operation I output high I output low I current output o/p high V o/p low V o/p low V o/p high V o/p low V o/p high V o/p low V o/p high V o/p low V o/p high V frequency stability frequency variation input R when on input R when off input R when on input R when off input R input R input R oscillation R Valid Vdd Vdd Vouts Vouts Cout Cout P port P port PWR PWR i/o port i/o port Com Com Seg's Seg's Min. Typ. 1 0.8 12 12 4 2.5 *-0.4V *-0.4V *+0.4V *-0.4V *+0.4V *-0.4V *+0.4V *-0.4V *+0.4V 5 10 Max. *+0.4V Unit uA mA mA mA mA mA V V V V V V V V V V % % kohm kohm kohm kohm kohm kohm kohm Mohm kohm Mohm kohm Remarks -5 -10 330 S port 30 S port 30 M port 30 M port 140 VBZ,INT 3 VBZ,INT 18 RESET 1.2 Rosc 910 Rosc 1.1 Rosc R osc oscillation R 800 Rosc Note 1. Vss2=0V, Vi=Vss2+0.4V Note 2. *:= Vdd u001 u001T I oh = -400 uA I oL = 400 uA I oh = -1 mA I oL = 1 mA I oh = -100 uA I oL = 100 uA I oh = -4 uA I oL = 4 uA I oh = -0.4 uA I oL = 0.4 uA [Fosc(4.5V)-Fosc(4.0V)]/Fosc(4.5V) 6 KHz S.R., 1.2 Mohm Rosc pulldown X'tor=on & note 1 pulldown X'tor=off, halt mode & note 1 pulldown X'tor=on & note 1 pulldown X'tor=off, halt mode & note 1 Vss2=0V, Vi=Vdd, VBZ=high Vss2=0V, Vi=Vdd, VBZ=low Vss2=0V, Vi=Vdd S.R.=6000 Hz, u001 S.R.=8000 Hz, u001 S.R.=6000 Hz, u001T S.R.=8000 Hz, u001T 4/12 PID219D 02/96 MOSEL VITELIC MSu001/u001T DC Characteristics at 3.0 Vdd (u7001) Symbol I sb I op I ohv I oLv I co d F/F d F/F R is R im R osc Name stand by I operation I output high I output low I cuurent output frequency stability frequency variation input R input R oscillation R Valid Vdd Vdd Vouts Vouts Cout Min. -5 -10 Typ. 300 0.5 7 6 2.5 1.2 850 Max. 5 10 Unit uA mA mA mA mA % % kohm kohm Mohm kohm Remarks [Fosc(3.0V)-Fosc(2.7V)]/Fosc(3.0V) 6 KHz SR, 1.2 Mohm Rosc S port M port Rosc Rosc S.R.=6000 Hz S.R.=8000 Hz Please refer next page for DC characteristics at 4.5V COB model number : MOSEL 001 Chip bonded : either u001 or u7001 MOSEL 001 COB Information I Silk screen & copper print 2 cm 1 0 COM3 COM2 C8 C1 COM1 10P COM2 X1 BAK C7 C7 C6 Legend Copper pad for X'tal Copper pad for LCD Copper pad for LCD Copper pad Through hole Through hole Alignment hole for Jig C2 VSS3 C3 C4 VSS1 VSS2 S3 S2 A3 A1 M3 C5 C5 RESET R1 R1 Q1 E VR R2 R2 M1 P3 P1 B3 B1 C6 S4 S1 A4 A2 M4 M2 P4 P2 B4 B2 5/12 PID219D 02/96 MOSEL VITELIC MSu001/u001T DC Characteristics at 4.5 Vdd (u7001) Symbol I sb I op I ohv I oLv I co d F/F d F/F R is R im R osc Name stand by I operation I output high I output low I current output frequency stability frequency variation input R input R oscillation R Valid Vdd Vdd Vouts Vouts Cout Min. -5 -10 Typ. 900 1.0 16 12 4 140 150 1.2 880 Max. 5 10 Unit uA mA mA mA mA % % kohm kohm Mohm kohm Remarks S port M port Rosc Rosc [Fosc(4.5V)-Fosc(V-0.5)]/Fosc(4.5V) 6 KHz S.R., 1.2 Mohm Rosc Vss2=0V, Vi=Vss2+0.4, halt mode Vss2=0V, Vi=Vss2+0.4, open mode S.R.=6000 Hz S.R.=8000 Hz Please refer to previous page for Characteristics at 3.0 V MOSEL 001 COB Information II Signal Name & Location Description COB model number : MOSEL 001 Chip bonded : either u001 or u7001 Please refer previous page for legends 2 cm 1 0 25 C O M 2 C O M 2 20 15 10 5 1 C C O OSS SS SS SS SS SS SS SS M 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 S S S S S S S S S M COM2 9876543211 35432109876543210 25 CAP CAP 20 15 10 5 1 COM1 X1 Xout Xin C8 C1 C2 C3 C4 VDD CAP BAK VSS3 VSS1 VSS2 S4 S3 CUP2 VREG S3 A3 A2 A1 RESET LIGHT RESET ALARM VDD Rosc R1 Cout VSS Vout2 Cout R2 Cout VSS VR Vout1 VSS Cout INT A4 VPP S2 A3 A1 M3 M1 P3 P1 B3 B1 C7 CUP1 C6 S4 S1 A4 A2 M4 M2 P4 P2 B4 B2 VDD C5 VDD RESET VDD B C E RESET RESET VSS 6/12 PID219D 02/96 MOSEL VITELIC MSu001/u001T Timing Diagram I. Addressing 6 - bit TW EB2 TG5(IOB2) TG4(IOB1) TG3(IOA4) TG2(IOA3) TG1(IOA2) TG0(IOA1) AUDIO BUSY Low Low TH TS TWA TWB S09 S06 One portion of the program to play a sound CLRM OUT OUT SETM II. PWR Signal AUDIO PWR BUSY 4h PA , R5 PB , R6 4h ; #EB2 Low ; ; ; #EB2 High 1. When PWR is high , MSu001 audio output signal will stay at approx. 2.4V even there is no audio output . 2. When PWR is low , MSu001 audio output signal will stay at GND level when there is no audio output . 3. For eliminating the "pop" noise purpose , PWR should be at high level when a sound section is played over , and also at high level in between two sound sections . 4. For energy saving purpose , PWR should not always stay at high level , since there will be a hundred-mA current consumption when PWR is high . So it should go to low level when its not needed . StandardCode LineUp MSSu001-066 MSSu001-068 MSSu001-078 MSSu001-090 Mandarin talking watch/clock English talking watch/clock Russian talking calculator Mandarin talking calculator 7/12 PID219D 02/96 MOSEL VITELIC MSu001/u001T Bonding Diagram Pad No. 1 2 3 4 5 6 7 8 9 10 11 12 Designation VDD VREG CUP1 CUP2 X1 X2 CAP COM1 SEG1 SEG2 SEG3 SEG4 X -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 Y 325.2 145.2 - 34.8 - 214.8 - 394.8 - 665.1 -1033.7 -1261.4 -1459.4 -1639.5 -1639.5 -1639.5 Pad No. 13 14 15 16 17 18 19 20 21 22 23 24 Designation SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 X -1443.1 -1263.1 -1083.1 - 903.1 - 723.1 - 543.1 - 363.1 - 183.1 3.1 176.9 356.9 536.9 Y -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 Pad No. 25 26 27 28 29 30 31 32 33 34 35 36 Designation SEG17 SEG18 SEG19 SEG20 SEG21 SEG22 SEG23 SEG24 SEG25 COM3 COM2 VSS3 X 716.9 896.9 1076.9 1256.9 1436.9 1616.9 1796.9 1976.9 1983.9 1983.9 1983.9 1947.1 Y -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1639.5 -1459.5 -1279.3 -1036.3 - 856.3 Pad No. 37 38 39 40 41 42 43 44 45 46 47 48 Designation BAK VSS1 VSS2 S4 S3 PWR(ALM) EB2 (LIGHT) TG0(IOA1) TG1(IOA2) TG2(IOA3) TG3(IOA4) RESET X 1947.1 1937.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 Y - 676.3 - 496.3 - 316.3 - 136.3 43.7 223.7 403.7 583.7 763.7 943.7 1123.7 1303.7 Pad No. 49 50 51 52 53 54 55 56 57 58 59 60 Designation VDD OSC VSS0 COUT VOUT1 VOUT2 TG4(IOB1) TG5(IOB2) IOB3 IOB4 VBZ/INT P1 X 1941.2* 1588.6 1370 1151.4 524.5 122.1 - 98.2 - 278.2 - 458.2 - 638.2 - 818.2 - 998.2 Y 1637.8 1636.1 1630.6 1611.4 1612.3 1612.3 1642.9 1642.9 1642.9 1642.9 1642.9 1642.9 Pad No. 61 62 63 64 65 66 67 68 69 70 71 Designation P2 P3 P4 M1 M2 M3 M4 NC NC S2 S1 X -1178.2 -1358.2 -1538.2 -1718.2 -1898.2 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 -1983.1 Y 1642.9 1642.9 1642.9 1642.9 1642.9 1405.2 1225.2 1045.2 865.2 685.2 505.2 8/12 PID219D 02/96 MOSEL VITELIC Application Circuit P1 P2 P3 P4 M3 M2 M1 64 63 62 61 60 59 58 57 56 55 TT GG 54 Buzzer Vout2 Vout1 54 MSu001/u001T Rosc + VBZ/INT R2 VSS0 VDD Reset RES TG3 TG2 0.1u TG1 TG0 EB2 PWR S3 S4 VSS2 VSS1 0.1u BAK 0.1u VSS3 COM2 COM3 SEG25 M4 66 67 68 69 70 71 1 2 3 4 5 6 53 52 51 48 47 46 45 44 43 42 S2 S1 CUP1 CUP2 0.1u X1 32768Hz X2 CAP COM1 SEG1 MS001 Substrate is Vdd 4290 x 3670 um Pad size : 90 x 90 um 41 40 39 38 37 36 35 7 8 34 9 11 1213 14 1516 17 18 19 20 2122 23 24 25 26 27 28 29 30 31 SEG1 COM1 SEG8 SEG16 SEG25 COM3 COM2 LCD (1/3 duty , 1/2 bias) Note: 1. T(transistor) = > 150, R2=470 ,S(speaker) = 1/4 w, 8 ; all typical. 2. R2=470 ( typical ) to bypass extra current into base to get rid of waveform saturation on collector . 3. Piezo buzzer resonant frequency is around 1K Hz. 4. All the above components need to adjust possibly case by case to meet required performance. 5. Vout1,Vout2 are tristate during stand by. Taiwan #1, Creation Road I, Science-based Industrial Park, Hsinchu 30077 Taiwan, ROC "taylor_hsiao@ccmail.mosel.com.tw" TEL: 886-35-770055 FAX: 886-35-772788 FAX: 886-35-784732 Taipei 7F, #102 Section 3, Ming Chung East Road, Taipei, Taiwan, ROC TEL: 886-2-5451213 FAX: 886-2-5451214 Hongkong #19 Dai Fu Street, Taipo Industrial Estate, Taipo, N.T. Hongkong TEL: 852-2388-8277 TEL: 852-2665-4883 FAX: 852-2664-2406 FAX: 852-2770-8011 U.S.A. #3910 North First Street, San Jose, CA.65134-1501 U.S.A. TEL: 1-408-433-6000 FAX: 1-408-433-0952 9/12 PID219D 02/96 MOSEL VITELIC TO: Attention : Mosel Vitelic Inc. 886-35-772788 (fax) Sales & Marketing Department MSu001/u001T Product Request Form We hereby request MVI to start preparing produce MSSu001 which is specified as below descriptions as well as form A and form B. I already read this data sheet and understand MSu001 completely and know how to specify to fit my requirement. General Descriptions Customer Agent Sales Represen. Sound Providing to MVI Code Providing to MVI Serviced Required from MVI Who is MVI sales you contact ? 8-bit PCM sound files .WAV sound files DAT or equivalent Something special in written memo Others .TRA program file, name = .EVA LCD file, name = .HEX program file, name = .HEX LCD file, name = EPROMs with data inside files to pro'med into EPROM 9011 & 9012 emulation boards u7001 chip on board Confirm table Others Power Source Chip Descriptions Title SampleRate Output Device Working Voltage Hz Buzzer (F fr= 1K Hz) Speaker (8 ohm, 1" diam) Other 2.5 V 3.0 V 3.5 V 4.0 V 4.5 V 5.0 V 5.5 V 6.0 V Battery size "D" Battery size "AA" Battery size "AAA" Battery button cell Mains Other Company Name : Signature : Position Title : Department, Section : Signature Date : 10/12 PID219D 02/96 MOSEL VITELIC TITLE Product Request Form A : Voice Word Definitions : There are Address MSu001/u001T 1< <64 S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S words defined. 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h Voice Description VoiceLength MuteLength S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h WordTotal < 80000h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 33 21h 34 22h 35 23h 36 24h 37 25h 38 26h 39 27h 40 28h 41 29h 42 2Ah 43 2Bh 44 2Ch 45 2Dh 46 2Eh 47 2Fh 48 30h 49 31h 50 32h 51 33h 52 34h 53 35h 54 36h 55 37h 56 38h 57 39h 58 3Ah 59 3Bh 60 3Ch 61 3Dh 62 3Eh 63 3Fh Length summ. of above 64 words 00 00h 01 01h 02 02h 03 03h 04 04h 05 05h 06 06h 07 07h 08 08h 09 09h 10 0Ah 11 0Bh 12 0Ch 13 0Dh 14 0Eh 15 0Fh 16 10h 17 11h 18 12h 19 13h 20 14h 21 15h 22 16h 23 17h 24 18h 25 19h 26 1Ah 27 1Bh 28 1Ch 29 1Dh 30 1Eh 31 1Fh 32 20h 00h must be < 1DA00h Signature & date MVI Sales & date PID219D 02/96 11/12 MOSEL VITELIC TITLE Product Request Form B : Mask Definitions Mask options Selections V Li - 1/2 Bias 1 Power bias 2 LCD driver & 1/2 duty 128 Hz display frequency 1/3 duty 170.7 Hz 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 note note MSu001/u001T 1/2 duty 64 Hz 1/3 duty 85.3 Hz Static 64 Hz Hold transistor Hold transistor Pull up Falling Non-BackUp Only 2 mS time Faster (Tk=8000uS) Slow (Fosc/2) 1/2 duty 32 Hz 1/3 duty 42.7 Hz Static 32 Hz S-port defined M-port defined Interrupt switch Interrupt edge Power-on mode External Reset Chatter Removal time Set time Oscillator System Clock Alarm frequency P-port Input port signal Light mode Reset level I/O port Light Static 128 Hz Open Open Pull down Rising BackUp and PowerOn reset 8 mS time Slower (Tk=512 mS) V Crystal Fast (Fosc) V Level shift V Level shift V Level shift V Always V High V Level shift V Level shift note Note 9 : For S port and M port Note 10 : Set time = (set value + 1) * Tk / Fosc ; Fosc is in KHz Note 15 : Input port control signal level shift, J48, J49 Signature & date MVI sales & date 12/12 PID219D 02/96 |
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